Dr. Wolf's CHM 201 & 202 14-1 Chapter 14 Organometallic Compounds.

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Presentation transcript:

Dr. Wolf's CHM 201 & Chapter 14 Organometallic Compounds

Dr. Wolf's CHM 201 & Organometallic Nomenclature

Dr. Wolf's CHM 201 & Metal is the parent Li Cyclopropyllithium Vinylsodium H2CH2CH2CH2C CHNa CH 3 CH 2 MgCH 2 CH 3 Diethylmagnesium CH 3 MgI Methylmagnesium iodide

Dr. Wolf's CHM 201 & Carbon-Metal Bonds in Organometallic Compounds

Dr. Wolf's CHM 201 & F4.0H2.1 O3.5Cu1.9 N3.0Zn1.6 C2.5Al1.5 H2.1 Mg1.2 Li1.0 Na0.9 K0.8 Electronegativities

Dr. Wolf's CHM 201 & Polarity of Bonds RX ++++ ––––RX –––– ++++ organometallics are a source of nucleophilic carbon

Dr. Wolf's CHM 201 & Polarity of Bonds CH 3 F CH 3 Li

Dr. Wolf's CHM 201 & Preparation of Organolithium Compounds

Dr. Wolf's CHM 201 & same for Ar—X An oxidation-reduction reaction: carbon is reduced Organolithium Compounds R X + 2Li R Li + LiX normally prepared by reaction of alkyl halides with lithium

Dr. Wolf's CHM 201 & ExamplesExamples (CH 3 ) 3 CCl + 2Li diethyl ether –10°C (CH 3 ) 3 CLi + LiCl (75%) Br + 2Li diethyl ether 35°C Li + LiBr (95-99%)

Dr. Wolf's CHM 201 & Electron Bookkeeping R X + Li [RX] + Li + – R + X–X–X–X– Li Li RLi

Dr. Wolf's CHM 201 & Preparation of Organomagnesium Compounds: Grignard Reagents

Dr. Wolf's CHM 201 & same for Ar—X Grignard Reagents R X + Mg RMgX prepared by reaction of alkyl halides with magnesium Diethyl ether is most often used solvent. Tetrahydrofuran is also used.

Dr. Wolf's CHM 201 & ExamplesExamples diethyl ether –10°C (96%) Br + Mg diethyl ether 35°C MgBr (95%) Cl + Mg MgCl

Dr. Wolf's CHM 201 & R X + Mg Electron Bookkeeping [RX] + Mg + – R + X–X–X–X– R Mg + X–X–X–X–

Dr. Wolf's CHM 201 & I > Br > Cl >> F RX > ArX Order of Reactivity

Dr. Wolf's CHM 201 & certain groups cannot be present in the solvent the halide from which the Grignard reagent is prepared the substance with which the Grignard reagent reacts Forbidden Groups

Dr. Wolf's CHM 201 & Anything with an OH, SH, or NH group i.e. an acidic hydrogen Forbidden Groups therefore cannot use H 2 O, CH 3 OH, CH 3 CH 2 OH, etc. as solvents cannot prepare Grignard reagent from substances such as HOCH 2 CH 2 Br, etc.

Dr. Wolf's CHM 201 & Organolithium and Organomagnesium Compounds as Brønsted Bases

Dr. Wolf's CHM 201 & Brønsted basicity RMHOR' RH OR' –M + –––– ++++ Grignard reagents (M = MgX) and organolithium reagents (M = Li) are strong bases.

Dr. Wolf's CHM 201 & ExampleExample (100%) + H 2 O + LiOH CH 3 CH 2 CH 2 CH 2 Li CH 3 CH 2 CH 2 CH 3 water is a stronger acid than butane

Dr. Wolf's CHM 201 & ExampleExample MgBr (100%) + CH 3 OH + CH 3 OMgBr methanol is a stronger acid than benzene

Dr. Wolf's CHM 201 & Table 14.2 Approximate Acidities of Hydrocarbons HydrocarbonpKa (CH 3 ) 3 CH71 CH 3 CH 3 62 CH 4 60 Ethylene45 Benzene43 Ammonia36 Acetylene26 Water16 Hydrocarbons are very weak acids. Their conjugate bases are very strong bases. Grignard reagents and organolithium reagents are strong bases.

Dr. Wolf's CHM 201 & Acetylenic Grignard Reagents are prepared by an acid-base reaction CH 3 CH 2 MgBr + CH 3 CH 3 stronger acid weaker acid HCCH HC CMgBr +

Dr. Wolf's CHM 201 & Synthesis of Alcohols Using Grignard Reagents

Dr. Wolf's CHM 201 & Grignard reagents act as nucleophiles toward the carbonyl group RMgX C O – MgX + –––– ++++ R C O R C OH H3O+H3O+H3O+H3O+ diethyl ether two-step sequence gives an alcohol as the isolated product

Dr. Wolf's CHM 201 & formaldehyde to give primary alcohols aldehydes to give secondary alcohols ketones to give tertiary alcohols esters to give tertiary alcohols Grignard reagents react with:

Dr. Wolf's CHM 201 & formaldehyde to give primary alcohols Grignard reagents react with:

Dr. Wolf's CHM 201 & Grignard reagents react with formaldehyde RMgX C O – MgX+ –––– ++++ R C O R C OH H3O+H3O+H3O+H3O+ diethyl ether product is a primary alcohol HH H H H H

Dr. Wolf's CHM 201 & ExampleExample diethyl ether Cl Mg MgCl C OHH CH 2 OMgCl H3O+H3O+H3O+H3O+ CH 2 OH (64-69%)

Dr. Wolf's CHM 201 & formaldehyde to give primary alcohols aldehydes to give secondary alcohols Grignard reagents react with:

Dr. Wolf's CHM 201 & Grignard reagents react with aldehydes RMgX C O – –––– ++++ R C O R C OH H3O+H3O+H3O+H3O+ diethyl ether product is a secondary alcohol HR' H R' H R' MgX+

Dr. Wolf's CHM 201 & ExampleExample diethyl ether Mg C O H3CH3CH3CH3CH H3O+H3O+H3O+H3O+ (84%) CH 3 (CH 2 ) 4 CH 2 Br CH 3 (CH 2 ) 4 CH 2 MgBr CH 3 (CH 2 ) 4 CH 2 CHCH 3 OMgBr OH

Dr. Wolf's CHM 201 & formaldehyde to give primary alcohols aldehydes to give secondary alcohols ketones to give tertiary alcohols Grignard reagents react with:

Dr. Wolf's CHM 201 & Grignard reagents react with ketones RMgX C O – MgX+ –––– ++++ R C O R C OH H3O+H3O+H3O+H3O+ diethyl ether product is a tertiary alcohol R"R' R" R' R" R'

Dr. Wolf's CHM 201 & ExampleExample diethyl ether Mg H3O+H3O+H3O+H3O+ (62%) CH 3 Cl CH 3 MgCl O CH 3 ClMgO HO

Dr. Wolf's CHM 201 & Organolithium reagents react with aldehydes and ketones in the same way that Grignard reagents do Synthesis of Alcohols Using Organolithium Reagents

Dr. Wolf's CHM 201 & ExampleExample (76%) H2CH2CH2CH2CCHLi + CHCHCHCHO 1. diethyl ether 2. H 3 O + CH 2 CHCH OH

Dr. Wolf's CHM 201 & Synthesis of Acetylenic Alcohols

Dr. Wolf's CHM 201 & Using Sodium Salts of Acetylenes HCCH NaNH 2 NH 3 HC CNa HC + 1. NH 3 2. H 3 O + O HOC CHCHCHCH (65-75%)

Dr. Wolf's CHM 201 & CH CH 3 (CH 2 ) 3 C + CH 3 CH 2 MgBr CMgBr CH 3 (CH 2 ) 3 C + CH 3 CH 3 diethyl ether 1. H 2 C O 2. H 3 O + CCH 2 OH CH 3 (CH 2 ) 3 C (82%) Using Acetylenic Grignard Reagents

Dr. Wolf's CHM 201 & Retrosynthetic Analysis Retrosynthetic analysis is the process by which we plan a synthesis by reasoning backward from the desired product (the "target molecule").

Dr. Wolf's CHM 201 & Retrosynthetic Analysis of Alcohols C OH Step 1 Locate the carbon that bears the hydroxyl group.

Dr. Wolf's CHM 201 & Retrosynthetic Analysis of Alcohols C OH Step 2 Disconnect one of the groups attached to this carbon.

Dr. Wolf's CHM 201 & Retrosynthetic Analysis of Alcohols COH

Dr. Wolf's CHM 201 & Retrosynthetic Analysis of Alcohols C O What remains is the combination of Grignard reagent and carbonyl compound that can be used to prepare the alcohol. MgX

Dr. Wolf's CHM 201 & ExampleExample C OH CH 3 CH 2 CH 3 C O CH 3 MgX There are two other possibilities. Can you see them?

Dr. Wolf's CHM 201 & SynthesisSynthesis C OH CH 3 CH 2 CH 3 C O1. 2. H 3 O + CH 3 Br Mg, diethyl ether CH 3 MgBr

Dr. Wolf's CHM 201 & Preparation of Tertiary Alcohols From Esters and Grignard Reagents

Dr. Wolf's CHM 201 & Grignard reagents react with esters RMgX C O – MgX + –––– ++++ R C O diethyl ether OCH 3 R' R' but species formed is unstable and dissociates under the reaction conditions to form a ketone

Dr. Wolf's CHM 201 & Grignard reagents react with esters RMgX C O – MgX + –––– ++++ R C O diethyl ether OCH 3 R' R' –CH 3 OMgX C ORR' this ketone then goes on to react with a second mole of the Grignard reagent to give a tertiary alcohol

Dr. Wolf's CHM 201 & ExampleExample 2 CH 3 MgBr + (CH 3 ) 2 CHCOCH 3 O 1. diethyl ether 2. H 3 O + (CH 3 ) 2 CHCCH 3 OH CH 3 (73%) Two of the groups attached to the tertiary carbon come from the Grignard reagent

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